By continuing to use this site you consent to the use of cookies on your device as described in our
Cookie Policy unless you have disabled them. You can change your Cookie Settings at any time but parts of our site will not function correctly without them.

Scientists have tracked how a period of globally low ocean-oxygen turned an Early Jurassic marine ecosystem into a stressed community inhabited by only a few species, a new study revealed.

The study by the University of Texas - Austin is led by Rowan Martindale, an assistant professor at the University of Texas at Austin Jackson School of Geosciences, and published on Saturday in the journal Palaeogeography, Palaeoclimatology, Palaeoeconology, reports Xinhua news agency.

The study was co-authored by Martin Aberhan, a curator at the Institute for Evolution and Biodiversity Science at the Natural History Museum in Berlin, Germany.

The study zeroes in on a fossil site in Canada located at Ya Ha Tinda Ranch near Banff National Park in Alberta province.

The site records fossils of organisms that lived about 183 million years ago during the Early Jurassic in a shallow sea that once covered the region.

The oxygen level of the surrounding environment during the Early Jurassic influences the type and amount of carbon preserved in rocks, making the geochemical record an important method for tracking an anoxic event.

The clams that survived during and after the event were much smaller than the clams from before the event, suggesting that low oxygen levels limited their growth.

Since the oceanic anoxic event was a side-effect of climate change, looking back at ancient marine communities could be a window into the potential impacts of ongoing and future climate change, co-author Aberhan added.

--IANS

ksk/vt

(This story has not been edited by Business Standard staff and is auto-generated from a syndicated feed.)